Vibration unit assembly for a belt conveyor

The invention claimed is: 1. A vibration unit assembly for a belt conveyor, comprising: a vibration element having a contact surface; a vibration generator operatively connected to the vibration element for inducing vibrations in the vibration element; and a connection assembly for connecting the vibration element to the belt conveyor so that the vibration element may move relative to the belt conveyor; and a positioning assembly to adjust the position of the vibration element relative to the belt conveyor, wherein the contact surface is engagable with a material transported on the belt conveyor to vibrate and compress the material. 2. The vibration unit assembly of claim 1 , wherein the vibration element comprises a plate and the contact surface comprises an underside surface of the plate. 3. The vibration unit assembly of claim 2 , wherein a portion of the plate comprises perforations. 4. The vibration unit assembly of claim 1 , wherein the vibration element comprises a roller and the contact surface comprises an outer surface of the roller. 5. The vibration unit assembly of claim 4 , wherein the roller is mounted to a frame connected to the connection assembly. 6. The vibration unit assembly of claim 1 , wherein the contact surface comprises one or more protrusions for engaging the material. 7. The vibration unit assembly of claim 1 , wherein the vibration element comprises one or more weights for increasing the compression force on the material. 8. The vibration unit assembly of claim 1 , wherein the vibration generator comprises at least one of a group of devices, the group of devices comprising a pneumatic vibrator, a rotating electrical vibrator, a linear electric vibrator and an electromagnetic vibrator. 9. The vibration unit assembly of claim 1 , wherein the connection assembly comprises one or more connecting arms for pivotably connecting the vibration element to the belt conveyor. 10. The vibration unit assembly of claim 1 , wherein the connection assembly comprises a frame for pivotably connecting the vibration element to the belt conveyor. 11. The vibration unit assembly of claim 1 , wherein the positioning assembly comprises one or more slidable guides connected to the vibration element. 12. The vibration unit assembly of claim 1 , wherein there is a plurality of vibration elements and a plurality of vibration generators, each vibration generator being operatively connected to a vibration element. 13. A belt conveyor, comprising an endless belt for transporting a material and the vibration unit assembly of claim 1 . 14. The belt conveyor of claim 13 , further comprising a filter cloth for supporting a material on the endless belt and permitting fluid to pass through, a vacuum chamber disposed beneath the endless belt and a vacuum pump operatively connected to the vacuum chamber to provide a vacuum suction force to the chamber and the endless belt. 15. A method for treating a material comprising a mixture of solid and fluid using the conveyor belt of claim 13 , the method comprising the steps of: moving the material along the endless belt of the belt conveyor; applying a vibration force to the material with the vibration unit assembly; and applying a compressive force with the vibration unit assembly to compact the material. 16. A method for drying a material comprising a mixture of solid and fluid using the belt conveyor of claim 13 , the method comprising the steps of: moving the material along the endless belt of the belt conveyor; applying a vibration force with the vibration unit assembly to rupture the material to release fluid; removing the released fluid from the material; and applying a compressive force with the vibration unit assembly to compact the material. 17. The method of claim 16 , further comprising filtering the material as it moves along the belt conveyor to remove excess fluid from the material and the removing step comprises applying a suction force to the material to remove the fluid. 18. The method of claim 15 , wherein the vibration force applying step and the compressive force applying step are performed simultaneously. 19. The method of claim 16 , wherein the vibration force applying step and the compressive force applying step are performed simultaneously. 20. The vibration unit assembly of claim 7 , wherein the vibration element comprises a holder for holding the one or more weights. 21. A vibration unit assembly for a belt conveyor, comprising: a vibration element having a contact surface; a vibration generator operatively connected to the vibration element for inducing vibrations in the vibration element; and a connection assembly for connecting the vibration element to the belt conveyor so that the vibration element may move relative to the belt conveyor; wherein the contact surface is engagable with a material transported on the belt conveyor to vibrate and compress the material; and wherein the vibration element comprises one or more weights for increasing the compression force on the material.